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Online since: February 2011
Authors: Zi Lei Liang, Chong Kuan Cheng, Ji Bo Liu, Guo Min Mi
Hollenkamp: journal of power sources, Vol.157 (2006), p.11-27
Gogotsi: Nature materials, Vol.7 (2008), p.845-854
Simon: Science, Vol.321 (2008), p.651-652
Pell: Journal of solid state electrochemistry, Vol.7 (2003), p.637-644
Chen: Journal of the electrochemical society, Vol.143 (1996), p.3791-3799
Gogotsi: Nature materials, Vol.7 (2008), p.845-854
Simon: Science, Vol.321 (2008), p.651-652
Pell: Journal of solid state electrochemistry, Vol.7 (2003), p.637-644
Chen: Journal of the electrochemical society, Vol.143 (1996), p.3791-3799
Online since: October 2023
Authors: Dhimas Satria, Yusvardi Yusuf, Mekro Permana Pinem, Nugroho Jati Pamungkas, Jefri Dharmesta, Kurniawan P. Yudha, Dwinanto Sukamto
Materials and Methods
Rice straw raw materials were collected from around Cilegon and Serang in Banten province.
Pizzi, Journal of Materials Research and Technology, 20, 4630–4658 (2022)
Aziz, Materials Science Forum, 888, 244–247 (2017)
Saipolbahri, Journal of the Korean Wood Science and Technology, 48, 22–31 (2020)
Vilaseca, Materials, 13, 2138 (2020)
Pizzi, Journal of Materials Research and Technology, 20, 4630–4658 (2022)
Aziz, Materials Science Forum, 888, 244–247 (2017)
Saipolbahri, Journal of the Korean Wood Science and Technology, 48, 22–31 (2020)
Vilaseca, Materials, 13, 2138 (2020)
Online since: December 2012
Authors: Yue Yu Tong, Xiong Yi, Bing Qin Yan, Yi Lan Chen
Study on the thermal system of microporous cementitious materials
Yue-yu Tong1,a, Xiong Yi1,b, Bing-qin Yan1,c, Yi-lan Chen1,d
1School of Material Science and Technology, Guangxi University, 100 th University Road, Nanning, Guangxi, China
atongyueyu@hotmail.com, byixiong68@163.com, cyanbqx@163.com, dchenyilan0008@163.com
Keywords : Sulphoaluminate; Fly ash; Porosity; Ceramsite; Thermal insulation material
Abstract.
Materials and experiments 2.1 Experimental materiels and preparation We used four major materials, fly ash, carbide slag, desulfurization gypsum and clay, for our experiments.
Other materials include mineralizer, calcium fluorine, and tap-water.
Thus, the best firing time of burning cementitious materials was 20 min.
Journal of Dalian University of Technology, 1998, 38(5): 571-574“in Chinese”
Materials and experiments 2.1 Experimental materiels and preparation We used four major materials, fly ash, carbide slag, desulfurization gypsum and clay, for our experiments.
Other materials include mineralizer, calcium fluorine, and tap-water.
Thus, the best firing time of burning cementitious materials was 20 min.
Journal of Dalian University of Technology, 1998, 38(5): 571-574“in Chinese”
Online since: December 2011
Authors: Yuan Jia Song, Wei Zhang, Dong Dong Wang, Guo Feng Jin
Especially, the amplitude must be higher when we detect composite materials, which conductivity is smaller than metal.
The excitation amplitude can change with different materials.
Journal of NDT.
International Journal of Fatigue.
Composites Science and Technology.
The excitation amplitude can change with different materials.
Journal of NDT.
International Journal of Fatigue.
Composites Science and Technology.
Online since: July 2014
Authors: Han Lian Liu, Chuan Zhen Huang, Bin Zou, Xue Fei Liu, Li Mei Wang
Therefore, the density of TiN-based composite ceramic materials can be increased by adding Ni additives.
Fig.7 shows the SEM micrographs of fractured surface of three composite ceramic cutting tool materials with different amount of Ni additive sintered at 1650℃ for 30 min.
Acknowledgements The work is supported by National Natural Science Foundation of China (51175305) and China Postdoctoral Science special Foundation2012T50610.
References [1] J.A.Ghania, I.A.Choudhuryb, H.H.Masjuki:Proceedings of the International Conference in Advances in Materials and Processing Technologies.
Vol. 153-154 (2004), p.1063 [2] T.Graziani, A.Bellosi:Journal of Materials Science Letters.Vol.14 (1995),p.1078 [3] M.L.Gu,C.Z.Huang,B.Zou,B.Q.Liu:Materials Science and Engineering.Vol.433 (2006),p.39 [4] L.H.Li,H.E.Kima,E.S.Kang:Journal of the European Ceramic Society.Vol.22 (2002),p.973 [5] M.L.Gu,H.J.Xu,J.H.Zhang, Z.Wei:Materials Science and Engineering.Vol.545 (2012),p.1 [6] B.Zou,C.Z.Huang,J.P.Song:Journal of Refractory Metals and Hard Materials.
Fig.7 shows the SEM micrographs of fractured surface of three composite ceramic cutting tool materials with different amount of Ni additive sintered at 1650℃ for 30 min.
Acknowledgements The work is supported by National Natural Science Foundation of China (51175305) and China Postdoctoral Science special Foundation2012T50610.
References [1] J.A.Ghania, I.A.Choudhuryb, H.H.Masjuki:Proceedings of the International Conference in Advances in Materials and Processing Technologies.
Vol. 153-154 (2004), p.1063 [2] T.Graziani, A.Bellosi:Journal of Materials Science Letters.Vol.14 (1995),p.1078 [3] M.L.Gu,C.Z.Huang,B.Zou,B.Q.Liu:Materials Science and Engineering.Vol.433 (2006),p.39 [4] L.H.Li,H.E.Kima,E.S.Kang:Journal of the European Ceramic Society.Vol.22 (2002),p.973 [5] M.L.Gu,H.J.Xu,J.H.Zhang, Z.Wei:Materials Science and Engineering.Vol.545 (2012),p.1 [6] B.Zou,C.Z.Huang,J.P.Song:Journal of Refractory Metals and Hard Materials.
Online since: July 2011
Authors: Jing Jie Zhang, Chong Hai Xu, Zhen Yu Jiang, Ming Dong Yi
Fig.2 is the element model diagram of graphite ceramic extrusion die materials, the most inner layer and the most outer layer are the graphite dies, middle is ceramic composite materials.
The Compositional design of ceramic die materials In order to avoid the longitudinal crack of ceramic extrusion die after hot pressed sintering, the thermal expansion coefficient, elastic modulus and poisson's ratio of ceramic extrusion die material are the design variables, and the largest tensile stress less than allowable stress of ceramic die materials is the objective function.
NCET-10-0866) and the Science and Technology Project of Shandong Province (Grant No. 2009GG10004023).
Journal of European Ceramic Society, Vol 27, p.1247-1251, 2007(In Chinese) [3] Guangchun Xiao, Chonghai Xu, and Bin Fang, et al, Research on the Engineering Performance of Ceramic Die Materials.
Beijing: Chemical Industry Press, 2002(In Chinese) [6] University of Science & Technology Beijing, Northeastern University, Engineering Mechanics.
The Compositional design of ceramic die materials In order to avoid the longitudinal crack of ceramic extrusion die after hot pressed sintering, the thermal expansion coefficient, elastic modulus and poisson's ratio of ceramic extrusion die material are the design variables, and the largest tensile stress less than allowable stress of ceramic die materials is the objective function.
NCET-10-0866) and the Science and Technology Project of Shandong Province (Grant No. 2009GG10004023).
Journal of European Ceramic Society, Vol 27, p.1247-1251, 2007(In Chinese) [3] Guangchun Xiao, Chonghai Xu, and Bin Fang, et al, Research on the Engineering Performance of Ceramic Die Materials.
Beijing: Chemical Industry Press, 2002(In Chinese) [6] University of Science & Technology Beijing, Northeastern University, Engineering Mechanics.
Online since: January 2011
Authors: Xue Feng Yin, Ting Ting Liang, Ju Fen Fu
Currently, researches for three-dimensional non-woven liner materials here are still in the initial stage.
Experiments Experimental Materials And Devices.
Experimental Materials.
Materials will be softened under the high temperature, forming a good heat-bonding network among fibers.
Both 4080 and PTT have a great influence on the softness of materials.
Experiments Experimental Materials And Devices.
Experimental Materials.
Materials will be softened under the high temperature, forming a good heat-bonding network among fibers.
Both 4080 and PTT have a great influence on the softness of materials.
Online since: September 2012
Authors: Jia Zi Shi, Xing Dang, Chuan Zhong Chen
References
[1] Bernhard Winzek, Sam Schmitz, Holger Rumpf, Tobias Sterzl, Ralf Hassdorf, Sigurd Thienhaus, Jürgen Feydt, Michael Moske and Eckhard Quandt: Materials Science and Engineering A Vol 378 (2004), p. 40
[2] G.
Altmtas: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1266 [3] Yanling Ge, Oleg Heczko, Outi Söderberg and Simo-Pekka Hannula: Scripta Materialia Vol. 54 (2006), p. 2155 [4] H.
Wuttig: Journal of Magnetism and Magnetic Materials Vol. 302 (2006), p. 421 [5] Changsheng Li, Jingwen Sun, Guangfei Sun, Guwen Yao and Zixin Chen: Surface and Coatings Technology Vol. 201 (2007), p. 5348 [6] Liu Chao,An Xu,Gao Laixu,Gao Zhiyong,Cai Wei and Zhao Liancheng: Journal of Functional Materials Vol. 37 (2006), p. 367 [7] A.
Chandrasekaran: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 630 [8] I.
Cai: Journal of Magnetism and Magnetic Materials Vol. 320 (2008), p. 63 [13]Igor Dubenko, Mahmud Khan, Arjun Kumar Pathak, Bhoj Raj Gautam, Shane Stadler and Naushad Ali: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 754 [14] Ma Yunqing, Lai Sanli, Yang Shuiyuan, Luo Yu, Wang Cuiping and Liu Xingjun: Transactions of Nonferrous Metals Society of China Vol. 21 (2011), p. 96
Altmtas: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1266 [3] Yanling Ge, Oleg Heczko, Outi Söderberg and Simo-Pekka Hannula: Scripta Materialia Vol. 54 (2006), p. 2155 [4] H.
Wuttig: Journal of Magnetism and Magnetic Materials Vol. 302 (2006), p. 421 [5] Changsheng Li, Jingwen Sun, Guangfei Sun, Guwen Yao and Zixin Chen: Surface and Coatings Technology Vol. 201 (2007), p. 5348 [6] Liu Chao,An Xu,Gao Laixu,Gao Zhiyong,Cai Wei and Zhao Liancheng: Journal of Functional Materials Vol. 37 (2006), p. 367 [7] A.
Chandrasekaran: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 630 [8] I.
Cai: Journal of Magnetism and Magnetic Materials Vol. 320 (2008), p. 63 [13]Igor Dubenko, Mahmud Khan, Arjun Kumar Pathak, Bhoj Raj Gautam, Shane Stadler and Naushad Ali: Journal of Magnetism and Magnetic Materials Vol. 321 (2009), p. 754 [14] Ma Yunqing, Lai Sanli, Yang Shuiyuan, Luo Yu, Wang Cuiping and Liu Xingjun: Transactions of Nonferrous Metals Society of China Vol. 21 (2011), p. 96
Online since: February 2013
Authors: Dai Qing Zhang, Wen Juan Gu, Xiao Hui Zhang
Impacts of packaging industry on the environment are as follows:
Impacts of packaging material on the environment--Paper Paper is one of the most important packaging materials.
References [1] Myer Kutz:Environmentally Conscious Materials and Chemicals Processing Pages Vol. 3 (2007), p.237
Limbo Journal of Applied Polymer Science, Vol. 124 (2012), p.3912
[6] Valentina Siracusa, Ignazio Blanco, Santina Romani, Urtzula Tylewicz, Pietro Rocculi, Marco Dalla Rosa: Journal of Applied Polymer Science, Vol. 125 (2012), p.390
Kassem: Journal of AppliedPolymer Science, Vol. 118 (2010), p.1713
References [1] Myer Kutz:Environmentally Conscious Materials and Chemicals Processing Pages Vol. 3 (2007), p.237
Limbo Journal of Applied Polymer Science, Vol. 124 (2012), p.3912
[6] Valentina Siracusa, Ignazio Blanco, Santina Romani, Urtzula Tylewicz, Pietro Rocculi, Marco Dalla Rosa: Journal of Applied Polymer Science, Vol. 125 (2012), p.390
Kassem: Journal of AppliedPolymer Science, Vol. 118 (2010), p.1713
Online since: September 2011
Authors: Nalaka Deepal Subasinghe
Phosphates are widely used as a substitute material for bones and teeth in medical sciences.
Phosphorus binding by poorly crystalline iron-oxides are known in earth science as well as in material science.
In material science, uses and implications of this iron – phosphate bond is numerous.
Materials and methods Natural apatite crystals exposed to meteoric weathering were used for this study, together with their associated weathering products.
Barron: Soil Science Society of America Journal, 58, No.6, (1994).
Phosphorus binding by poorly crystalline iron-oxides are known in earth science as well as in material science.
In material science, uses and implications of this iron – phosphate bond is numerous.
Materials and methods Natural apatite crystals exposed to meteoric weathering were used for this study, together with their associated weathering products.
Barron: Soil Science Society of America Journal, 58, No.6, (1994).